Development of a Dynamic Cathode Ejector Model for Solid Oxide Fuel Cell-Gas Turbine Hybrid Systems

James D. Maclay; Jacob Brouwer; G. Scott Samuelsen

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Development of a Dynamic Cathode Ejector Model for Solid Oxide Fuel Cell-Gas Turbine Hybrid Systems

机译：固体氧化物燃料电池-燃气轮机混合系统动力阴极喷射器模型的建立

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Solid oxide fuel cell-gas turbine (SOFC-GT) hybrid systems are attractive for future power generation with ultra-low criteria pollutant and greenhouse gas emissions. One of the challenges for SOFC-GT systems is to sufficiently pre-heat incoming air before it enters the fuel cell cathode. An ejector for cathode exhaust recirculation has the benefits of reliability, low maintenance, and cost compared to either recuperators or cathode recirculation blowers, which may be also be used for air pre-heating. In this study, a dynamic Simulink model of an ejector for cathode exhaust recirculation to pre-heat incoming fuel cell air has been developed. The ejector is to be utilized within a 100 MW SOFC-GT dynamic model operating on coal syngas. A thorough theoretical development is presented. Results for the ejector were found to be in good agreement with those reported in literature.

机译：固体氧化物燃料电池-燃气轮机（SOFC-GT）混合系统对于具有超低标准污染物和温室气体排放的未来发电具有吸引力。 SOFC-GT系统的挑战之一是在进入的空气进入燃料电池阴极之前对其进行充分的预热。与也可用于空气预热的同流换热器或阴极再循环鼓风机相比，用于阴极排气再循环的喷射器具有可靠性，低维护和成本的优点。在这项研究中，已经开发了用于阴极排气再循环以预热燃料电池进入空气的喷射器的动态Simulink模型。该喷射器将在以煤合成气运行的100 MW SOFC-GT动态模型中使用。提出了彻底的理论发展。发现喷射器的结果与文献报道的结果非常一致。

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《Journal of Fuel Cell Science and Technology》 |2011年第5期|共6页
作者
James D. Maclay; Jacob Brouwer; G. Scott Samuelsen;
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正文语种 eng
中图分类燃料电池;
关键词
SOFC-GT hybrid system; IGFC; Fuel cell; Gas turbine; Cathode ejector; Cathode recirculation; Dynamic modeling;

机译：SOFC-GT混合动力系统IGFC燃料电池燃气轮机阴极喷射器阴极再循环动态建模;

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1. Development of a Dynamic Cathode Ejector Model for Solid Oxide Fuel Cell-Gas Turbine Hybrid Systems [J] . James D. Maclay Jacob Brouwer and G. Scott Samuelsen Journal of Fuel Cell Science and Technology . 2011,第5期

机译：固体氧化物燃料电池-燃气轮机混合系统动力阴极喷射器模型的建立
2. A multi-level simulation platform of natural gas internal reforming solid oxide fuel cell-gas turbine hybrid generation system: Part I. Solid oxide fuel cell model library [J] . Cheng Bao, Yixiang Shi, Eric Croiset, Journal of power sources . 2010,第15期

机译：天然气内部重整固体氧化物燃料电池-燃气轮机混合发电系统的多级仿真平台：第一部分。固体氧化物燃料电池模型库
3. Analysis of a pressurized solid oxide fuel cell-gas turbine hybrid power system with cathode gas recirculation [J] . Dang Saebea, Yaneeporn Patcharavorachot, Suttichai Assdbumrungrat, International journal of hydrogen energy . 2013,第11期

机译：具有阴极气体再循环的加压固体氧化物燃料电池-燃气轮机混合动力系统分析
4. DEVELOPMENT OF DYNAMIC MODELING TOOLS FOR SOLID OXIDE AND MOLTEN CARBONATE HYBRID FUEL CELL GAS TURBINE SYSTEMS [C] . Randall S. Gemmen, Eric Liese, Jose G. Rivera, ASME TURBO EXPO . 2000

机译：用于固体氧化物和熔融碳酸盐杂交燃料电池燃气轮机系统动态建模工具的研制
5. Solid Oxide Fuel Cell-Gas Turbine Hybrid Power Systems: Energy Analysis, Control Assessments, Fluid Dynamics Analysis and Dynamic Modeling for Stationary and Transportation Applications [D] . Azizi, Mohammad Ali. 2018

机译：固体氧化物燃料电池-燃气轮机混合动力系统：固定和运输应用的能量分析，控制评估，流体动力学分析和动力学建模
6. Energy and Exergy Analyses of a Solid Oxide Fuel Cell-Gas Turbine-Organic Rankine Cycle Power Plant with Liquefied Natural Gas as Heat Sink [O] . Mohammad H. Ahmadi, Mirhadi S. Sadaghiani, Fathollah Pourfayaz, 2018

机译：固体氧化物燃料电池 - 燃气汽轮机 - 有机朗顿循环发电厂的能量和暴力分析液化天然气作为散热器
7. Thermoeconomic modeling and parametric study of hybrid solid oxide fuel cell-gas turbine-steam turbine power plants ranging from 1.5 MWe to 10 MWe [O] . Arsalis Alexandros, Von Spakovsky M.R., Calise F. 2009

机译：混合固体氧化物燃料电池 - 燃气轮机 - 汽轮机发电厂的热经济建模和参数研究范围从1.5 mWe到10 mWe

Development of a Dynamic Cathode Ejector Model for Solid Oxide Fuel Cell-Gas Turbine Hybrid Systems

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